In a hypotherical Bohr hydrogen, the mass of the electron is doubled. The energy `E_(0)` and the radius `r_(0)` of the first orbit will be (`a_(0)` is the Bohr radius)

In Bohr's model, if the atomic radius of the first orbit is r_(0) , then the radius of the fourth orbit is

For hydrogen atom, radius of first Bohr orbit would be

If the radius of the second Bohr of hydrogen atom is r_(2) the radius of the third Bohr orbit will be

The de-broglie wavelength of the electron in the second Bohr orbit is (given the radius of the first orbit r_1 = 0.53 Å)

In Bohr's mode, the atomic radius of the first orbit is r_(0) then the radius of the third orbit is

The radius of Bohr's first orbit is a_(0) . The electron in n^(th) orbit has a radius :

In a Bohr atom the electron is replaced by a particle of mass 150 times the mass of the electron and the same charge. If a_(0) is the radius of the first Bohr's orbit of the orbital atom, then that of the new will be .

Radius of 2 nd shell of He^(+) is ( where a_(0) is Bohr radius )

If the radius of first Bohr orbit be a_0 , then the radius of the third orbit would be-

If the radius of 2^(nd) Bohr orbit of hydrogen atom is r_(2) .Then the radius of third Bohr orbit will be :-